News / Science News

    Whales may owe their efficient digestion to millions of tiny microbes

    A study at the Woods Hole Oceanographic Institution shows that the microbial communities inside whales may play an important role in the digestion of one of the ocean's most abundant carbon-rich lipids: wax esters.



    A bowhead whale breaches the surface of the cold waters off Point Barrow, Alaska. Photo: Kate Stafford/University of Washington


    Wax esters are one of the most difficult fats to digest for many animals, including humans. They are especially abundant in tiny crustaceans such as krill and copepods -- favorite prey of filter-feeding bowhead and endangered North Atlantic right whales. Wax esters are also an important lipid in the oceans worldwide, at times storing at least half the carbon produced by plant-like marine organisms.

    Bowhead whales are highly efficient at digesting these lipids. "We found that more than 80 percent of the lipids eaten by bowhead whales are wax esters, but less than 30 percent remain in the large intestine," says WHOI marine scientist Carolyn Miller, lead author of the study.

    If wax esters are difficult to digest, how can bowhead and other baleen whales do so efficiently? Part of the answer could be the millions of tiny gut microbes living in their digestive tracts. These microbial communities are commonly referred to as gut microbiota.

    In humans and other terrestrial animals, gut microbes play important roles in many aspects of health, including digestion, where they break down otherwise indigestible components.

    In the lab, Miller and her colleagues analyzed samples from bowhead whales' gastrointestinal tracts, hoping to detect changes in microbial communities and lipids throughout the gut of each whale. What they found was a strong connection between the microbial community and a decrease in the presence of wax esters in the lower part of the small intestine. (National Science Foundation)

    DECEMBER 11, 2019



    YOU MAY ALSO LIKE

    Thanks to results of a recent study, researchers now have a clearer picture of the impact of the Justinianic Plague, which lasted from about 541-750 CE.
    Almost 40% of global land plant species are categorized as very rare, and these species are most at risk for extinction as climate continues to change.
    Oxygen in the oceans is being lost at an unprecedented rate, with “dead zones” proliferating and hundreds more areas showing oxygen dangerously depleted, as a result of the climate emergency and intensive farming, experts have warned.
    A new study suggests that cell phone could be the cause of neck or head pain in people.
    Humans are being exposed to 44 times more infertility-causing and cancer-linked 'gender-bending' chemicals than previously thought, according to a new study.
    Healthy sounds played over loudspeakers can attract fish to dying reefs.

    © 1991-2023 The Titi Tudorancea Bulletin | Titi Tudorancea® is a Registered Trademark | Terms of use and privacy policy
    Contact